e and i get it. If you have time check the attached papers we published a while ago in relation to the contribution of thermal mass in the reduction of temperature in residential buildings. See the nice contribution of the heavy TM or the lower one for light TM.
As for the solarHeatCapacity, your description (of the 50W) is derived on a 1 Facade/Floor ratio and fully glazed. The only way to reduce it is to increase the ratio (bigger facade area). Which is not recommended (energy losses), but this is a different issue. So, roughly, we can say that 50 is the lower value. If i have less glazing area this number will be higher (right?)
I want to define a value list of "architectural situations", so it is easy to explain and understand. One situation can be:
"Ratio facade/floor 1 & Fully glazed" = 50
"Ratio facade/floor 1 & Half glazed" = 75
"Ratio facade/floor 1.5 & Fully glazed" = 30
"Ratio facade/floor 1.5 & Half glazed" = 50
"Ratio facade/floor 0.75 & Fully glazed" = 70
"Ratio facade/floor 0.75 & Half glazed" = 90
Makes sense for you something like this?
I also defined a value list for the timeConstant like this:
Light Building (Mobile home) = 1Medium-light building (Cement tiles on floor) = 4Semi Heavy Building (Concrete floor + Tiles) = 8Heavy Building (Concrete floors/ceilings + Heavy external and internal walls) = 12
As for the first 5-10 cm effective TM in general my assumption is that you take half of the mass to your space and half to the space above/below you. Will be interesting to do a parametric study on just the thermal mass, uninsulated and insulated to see what the depth limits effectivity will be. Interested in doing such a study together? Can be a nice work even for publishing.
Thanks a lot ... again,
-A.…
393&xg_source=activity
In this case we see a geometrically approach, which doesn’t works efficient, because it required knowing how they behaviors together before, and I think it is not the ‘really behaves’.
To make the structure ‘really behaves’ I tried use kangaroo and the result works very well! As you can see I simply give the 2-set reverse UForce, and then they start to rotate until they found their equilibrium. That means 90 degree rotation. I was wondering what we can do to make a endless-rotation. I am mean 360 degree or more like this:
https://www.youtube.com/watch?v=4owFczeqqMQ
By the way, I try to give supports which allow a horizontal movement only (Just curious how we could keep the anchor-movement horizontally and in the same layer, for example like usual supports for compression ring…). I use the AnchorXYZ, but Kangaroo-Engine seems don’t accept its output.
So maybe some one knows a better solution?
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Added by Jon to Kangaroo at 7:40am on March 11, 2014
problem later) to fit more shapes that are otherwise won't fit in.
On the example below horizontal rectangle couldn't fit in but its rotated analog could and thus was placed in.
Later, when placed shapes are used to generate frames, because of this rotation, the position of the starting points changes and because of the approach I use to generate the frames some angle values are attached to the wrong corners, this brakes the frame shape and looks like this (on the left the frame of sick shape and on the right the frame of the healthy shape):
Again, this happens because the angle values are assigned to the specific corners (points) and previously rotated shapes get these all messed up:
Easy fix, don't rotate the shapes, problem is, I've already baked a good number of them for later use. I'd like to avoid regeneration because it takes a lot of time and without rotation I constrict the algorithm even more.
Better fix, use a different approach, this is where I'd like to hear suggestions and kicks in a right direction. Please take a look at my definition. It works but I have a feeling like giving an amputee a job of sweeping the floor.
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evel] are required. No specific Processing skills are required (although an introductory knowledge of programming logic is welcome). Participants should bring their own laptop with pre-installed software (software download links will be given after subscription).
[.]Tutors:
Alessio Erioli + Andrea Graziano + Alessandro Zomparelli – Co-de-iT.
[.] Brief
The workshop explores the manifold relations of creativity and control in computational design. The availability of increasingly complex and sophisticated tools shifts how control and sensibility are exerted and deployed within the design process. A new computational craft is required, one that allows the embedding in computational simulation of matter and agency so that ideas propagate in a deeper ecology with degrees of autonomy that provide complex feedbacks. Objects and systems are not anymore simple assemblages of static parts but are generated from the interrelations of other complex objects within ecologies. The designer is not just merely using tools rather establishing a loop dialogue with their creative and autonomous possibilities: questioning their capacity and extension, evaluating and empathizing with the result that in turn allow configuring and being configured by them continuously.
We will explore matter and agency behaviors through Grasshopper (with Millipede plugin) and Processing, interrogating the aesthetic potential of Topology Optimization and Multi-Agent Systems.
more info here:
http://www.co-de-it.com/wordpress/ctrl-shift-grasshopper-processing-workshop-vienna.html…
picture:
... and on a PC without anything attached to the serial port. When you open the port, start the read component and its timer, do you then get a stream of <empty> values in the log output? (hmmm... I suppose that's only reasonable - but still, you are also seeing this?)
I suppose that, because of the mutually exclusive behavior of both the spider and grasshopper (i.e. only one at a time can access the COM port), we can deduce that we are listening on the correct port.
Am I listening on the correct pin (if such a notion makes sense at all)? If I look back to the spider software, I see that 9 channels are listed and that it's only the measured value on channel 0 that changes when I press the load cell. Channels 1, 2, and 3 report OVERFLOW; 4, 5, 6, and 7 are pretty much constant at 0.000 to 0.005 V; and channel 8 says FFFF. I do not know how things like that work so I do not know if they reflect reading from the 9 pins on the D-sub 9 connector.
As for your BTW question: no, I don't need to record all of the sensor values. I suppose that the Out value on the Read component will always reflect the most current value and that's all that I need to get on with life. In the end, the idea is that we have 4 load cells in the 4 corners of a plate onto which a vertical pipe is fixed. Loads are then put on the top end of the pipe and we'll have to visualize both direction and magnitude of the bending moment that is calculated from the compression - tension readings from the load cells... We've done this on a scaled model and streamed load cell information into MatLab. Now we'll have to use a different datalogger and I was hoping to be able to do the post processing in Rhino.
wim…
new components, and the Firefly Firmata has changed since the 1.003 version. However, the problem still exists in that there is not a super smooth workflow for integrating Steppers with Firefly (yet)... but it's not impossible. There is a post on the Firefly website that has some instructions on how to drive a stepper motor using the Generic Serial Write component and the Easy Stepper Driver. You can find a link here for more information: http://www.fireflyexperiments.com/discussions/post/1438445
It's quite possible that if you already have a sketch that is working using a set Arduino variable (say 100, which makes the servo move to 180 degrees) that you're very close to getting it to work with Firefly. You'll want to use the Generic Serial Write component (instead of the Uno Write component... as the Uno Write component has been setup specifically for use with the Firefly Firmata... and you'll be using you're custom script). You'll likely need to modify your Arduino script in some small way to read in the serial information being sent over from Grasshopper. Basically, in Grasshopper, you'll first need to open the port (using the Open/Close Port component). Make sure the baud rate matches the speed that you use in your Arduino sketch (and that the port number matches your board number). Then, on the Generic Write component, you'll set the port number (same as the COM number in the Open/Close Port component) and set the start input to True. Then, all you need to do is connect some data to send over the serial port... If you wanted to send a numeric value (like 100), then just connect an integer slider. As I said, you need to modify your Arduino code so that it knows how to read in the data from Grasshopper and then what to do with that data. Without seeing you're code, it's hard to tell you exactly how to do this... But, perhaps if you upload a file (or send us a file at info[at]fireflyexperiments.com) then we can help you get your file modified so it will work. Once that's done, it should be really straight forward to drive a stepper through Firefly.
HTH,
Andy
PS, integrating steppers into the Firefly firmata is on my wishlist of things to implement into Firefly very soon. Thank you again for bringing it up.…
at sky type you choose. See images below.
A Tregenza sky discretizes the skydome into 145 patches to simplify the calculation process. This skydome approximates the smoother Perez sky shown below. Both the Tregenza 145-patch sky and the Perez sky use climate data to create realistic skies that react to hourly solar and weather data. So there may be some differences between the two runs. Also, every unique run will have some error based on how the calc process works and what your presets are.
Tregenza 145-patch sky-…
oller, the internet and beyond. This release adds a few new components the toolbar, including the new Ports Available component which polls your device manager and returns the COM number assigned to Arduino board, as well as a new Wave component. We're also excited to release the new reacTIVision component, which enables real-time camera tracking of fiducial markers. If you're new to reacTIVision, take a look at their website and download their engine (and printable fiducial markers) for free: http://reactivision.sourceforge.net/. We've also improved the efficiency of several of the existing components and updated everything for the latest Arduino UNO board.
In addition, we have also released an update to the Firefly Primer - a manual which provides an in-depth look at each individual component and walks you through the entire process of using this powerful new tool (from installation to final output). It also includes some basic tutorials, links and references to get you up and running quickly.
This build requires Rhino 4.0 SR8 (or Rhino 5.0 beta) and Grasshopper 0.8. The installation for this build has changed slightly from previous versions (given the new special roaming folder created for Grasshopper 0.8) and the fact that the reacTIVision component requires the installation (copy/paste) of an additional library (libTUIO.dll). The installation instructions can be found here and should be easy to follow if you are familiar with the Grasshopper interface.
To download the latest build, check out our website at: www.fireflyexperiments.com
As always, we'd love to hear your feedback so feel free to contact us as: info@fireflyexperiments.com Or sign up for our mailing list and find out about all the new Firefly features and events.…
rth. Current components include:
Format_GPS: Takes NMEA Formatted GPS Latitude and Longitude values and converts them to Decimal Degrees. Will add further converters.
GPS->XYZ: Maps Longitude, Latitude, and Altitude to XYZ.
XYZ->GPS: Maps XYZ to Longitude, Latitude, and Altitude.
KML_Export: Exports imported geometry to KML format. Currently implemented for points, curves, and meshes. Any Breps should be meshed before. Will be adding conditions for other geometry as well as render styles.
Look forward to a WIP release next week.
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s not matching the behavior I experience when I call the methods via the com interface outside of Rhino. Specifically, the OpenDocument method causes a "Grasshopper display error".
(Error Message)
(Resulting Canvas)
I know I am not initializing the GUI correctly but not sure where to go. I can dig deeper into the SDK (ie all the way to GH_DocumentIO.Open()) but honestly much of what I want to do is exposed in GH_RhinoScriptInterface.
My code right now is as follows:
protected override Result RunCommand(RhinoDoc doc, RunMode mode) {bool flag1 = false;bool flag2 = false;
flag1 = Grasshopper.Plugin.Commands.Run_Grasshopper();
Grasshopper.Plugin.GH_RhinoScriptInterface GH_Rhscript = new Grasshopper.Plugin.GH_RhinoScriptInterface();
flag2 = RScript.OpenDocument(@"C:\Temp\Grasshopper\Fins.gh"); //fail
return Result.Success; }
I have also tried:
var GH_DocEditor = new Grasshopper.GUI.GH_DocumentEditor();GH_DocEditor = Instances.DocumentEditor;
flag2 = Instances.DocumentEditor.ScriptAccess_OpenDocument(@"C:\Temp\Grasshopper\Fins.gh"); //fail
The SDK docs says "You are unlikely to need any of this." so here I am.
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